The r.m.s speed of oxygen molecule `(O_(2))` at a certain temperature T is V. If on increasing the temperature of the oxygen gas to 2T, the oxygen molecules dissociate into atomic oxygen, find the speed of the oxygen atom.

The rms speed of oxygen moleucle at a certain absolute temperature is ‘v.. If the absolute temperature is double and the oxygen molecules dissociate into atomic oxygen. Then the rms speed would be

State whether the following statements are true or false gving reason in brief: The r.m.s. speed of oygen molecules (O_2) at a certain temperature TK is v. If the temperature is double and oxygen gas dissociates into atomic oxygen, the r.m.s. speed remains unchanged.

The root-mean-square (rms) speed of oxygen molecules (O_(2)) at a certain absolute temperature is v.If the temperature is double and the oxygen gas dissociated into atomic oxygen, the rms speed would be

The root-mean-square (rms) speed of oxygen molecules (O_(2)) at a certain absolute temperature is v.If the temperature is double and the oxygen gas dissociated into atomic oxygen, the rms speed would be

The rms speed of oxygen molecules at a certain temperature T is v . If the temperature is doubled and oxygen gas dissociates into atomic oxygen, then the rms speed

The rms speed of oxygen molecule at a certain temperature is 600ms^(-1) . If the temperature is doubled and oxygen molecule dissociates into atomic oxygen atoms, the new rms speed is

The rms speed of oxygen molecules at a certain temperature is upsilon . If the temperature is doubled and the oxygen gas dissociates into atomic oxygen, the rms speed would be

Statement I: The rms speed of oxygen molecules (O_2) at an absolute temperature T is c. IF the temperature is doubled and oxygen gas dissociates into atomic oxygen, the rms speed remains unchanged. Statement II: The rms speed of the molecules of a gas is directly proportional to sqrt(T//M)